US1765474A - Control system - Google Patents

Description

' June 24,1930. r, u, WHITE 1,765,474

CONTROL SYSTEM Filed June 24, 1924 8 Sheets-Sheet l WITNESSES: I v v INVENTOIR Thomas U. W/me.

ATTORNEY T. U. WHITE CONTROL SYSTEM June 24, 1930.

Filed June 24, 1924 8 Sheets-Sheet INVENTQR 77 0/1705 0. [WI/7?.

. WITNESSES:

ATIORNEY n 24, 1930 T. u. WHITE 7 1,765,474

CONTROL SYSTEM Filed June 24, 1924 a Sheets-Sheet 5 fie/ecfor' /7e/ay$ Y m ESSES: lNV v 03 7774/7705 M1729. iy 7 BY I ATTORNEY u 24, 0- T. U. WHlTE 1,765,474

CONTRQL. SYSTEM Filed June 24, 1924 8 Sheets-Sheet 4 (30/7/70 Fe/aya INVENTOR ATTORNEY T. u. WHITE CONTROL SYSTEM June 24, 1930.

Filed June 24, 1924 8 Sheets-Sheet w hk QE INVENTOR 720/7705 flWfi/fk.

WITNESSES:

ATTORNEY 8 Sheets-Sheet Filed June 24, 1924 INVENTOR WITNE SE my ATTOR EY June 24-, 1930. T WHITE 7 1,765,474

CONTROL SYSTEM Filed June 24, 1924 8 shee'ts-sh et 7 WITNESSES:

7790/1705 1/ Wfi/feg 8 Sheets-Sheet 8 mam June 24, 1930. T. u. WHITE CONTROL SYSTEM Filed June 24, 1924 INVENTOR ATToRNEY mmm wm mwm h mm

Patented June 24, 1 930 UNITED-STATES PATENT: OFFICE moms uf'wmrn, or nrrsnunan, rnnnsrnvmm, Assronon 'ro wns'riirenousnunc'rnrc a mmrracrnnnre comrm, A. oonroaa'rron or rms'nvmra CONTROL SYSTEM I Application filed June 24, 1924. Serial No. 782,087.

My invention relates, in general to control systems and more particularly to su ervisory control systems for supervising an controlling remotely-disposed electrical equipment from a central point or dispatchers oflice.

One object of myinvention is to provide improved circuits and apparatus for supervising and controlling a large number of apparatus units over a. single pair of wires between the dispatchers oflice and station in which are located the apparatus units that it is desired to supervise and control.

Another object of in invention is to provide improved means or operating a chain of relays at the dispatchers ofiice and a chain of relays at the station in synchronism over a single pair of wires.

Another object of my invention is to provide improved means for usin 'these wires Ifor both controlling the operatlon, of the apparatus units at the station and for signaling their operation at the di atchers oflice. There are other ObJBOtS o the invention which, together with the fore oing, will be :described hereinafter with re erence to the accompanying drawings.

Referring now to the drawings, comprising Figures 1 to 8, inclusive, suflicient apparatus and circuits have been shown by means of :conventional diagrams to enable my invention to be readily explained and understood.

The apparatus and circuits shown in Figs.

1 to 4, inclusive, are those located at the dispatchers oflice, while the apparatus and circuits shown in Figs. 5 to 8, inclusive, are

those located at the substation.

In practicing my invention, [provide a chain of countmg relays at the dispatchers office and a chain of counting relays, corre-.- sponding in number, at the substation in which are locatedtheapparatus units that it 'is desired to controland supervise. There groups of selecting relays associated are two with eac group of counting relays, although the number of groups of selecting relays may be increased in order to increase the capacity of the system. 'In addition, two switching provided,- one for each group of relays are selecting re ays. I a

A control circuit is locatedat both the disto control.

patchers oflice and station for controlling the operation of the counting relays. The

counting relay chains and control circuits are connected together by means of a one-conductor trunk line. A ound return circuit is employed, although it is obvious that, instead of using this ground return, a se arate circuit may be provided, which is pre erable in practice.

In the dispatchers ofice, a group of keys are rovided corresponding in number to the num er of apparatus units that it is desired ar. 1 When the dispatcher desires to control an apparatus unit at the station or substation, he.

in the proper direction. As a result of this common control key is also I will operate the key associated with that unit operation, the selection control circuits function to operate the relays in the counting chains at the office and station in a predetermined sequence. The selection control circuit is operated by the alternate application of current 'fromtwo separate batteries. Checking means are also provided so that, unless the two batteries are connected to the control circuit alternately, the apparatus does not function.

Simultaneously with the first cycle of the counting chains, a. switching relay is operated at both the dispatchers ofiice and sub station to connect the relays of one of the auxiliary selecting groups and these relays are operated in a definite sequence under the control of the counting relays. As the selecting relays operate, they alternately connect the signalling apparatus and the control apparatus to the si nalling circuit, extending between the dispatc ers oflice and substation.

If no controlling or signalling operation is performed, the controlling and signalling apscribed.

paratus is merely disconnected from the circuit extending between the dispatchers ofiice and the substation and the selection control circuit functions. If a signalling or control operation is performed, the selection control circuit remains disconnected until the signalling or control operation is completed. In this manner, it is possible to supervise and control a large number of apparatus units at high speed over a single pair of wires.

If the apparatus unit that it is desired to operate is not selected b the operation of the selecting relays in the rst group, the operation of the counting chains will be repeated although, it will be understood, in any event, the counting relays repeat their operation until all the selecting relays have been energized. The previously mentioned switching relays will be released and another switching relay at the dispatchers oflice and substation will be operated to connect the relays in the secondary auxiliary selecting groups.

When the proper apparatus unit is selected, battery is connected to the operation control circuit to operate a polarized relay associated with the operation signalling circuit at the substation so that the armature of said relay assumes one position or another position. The operation of the polarized relay causes the apparatus unit that is selected to be operated. In the jmeantime, the selection control circuit is disconnected from the circuit extending to the dispatchers ofiice and the relay selecting apparatus maintains connection with the desired unit. When the unit operates, battery at the substation is connected to the supervisory circuit to operate a polarized relay at the dispatchers ofiice. The operation of the polarized relay controls the operation of the signalling devices to indicate the operation'of the selected unit. As a result of the operation of the signalling devices, the selection control circuit is reconnected to the trunk circuit and again starts to function. After all the relays of the auxiliary selecting groups have been operated, the relay selecting apparatus is restored to normal.

In the event that an apparatus unit at the substation operates under the control of automatic devices, responsive to circuit conditions, the operation of the'supervisory signalling devices takes place, underthe control of the supervisory selecting apparatus, in substantially the same manner as that de- Referring now more articularly to Fig. 1, relays 100 to 123, inc usive, comprise the group or chain of counting relays at the dispatchers oflica' Relays 124 and 125 are control relays for controlling certain releasing operations. 1 a

In Fi 2, a key Kisoftheusuallocking doublerow type. A. key K1 is of the usual non-locking single-throw type. Relays 200-and 201 control the operation of signallingldevices 216 and 217 and are so positioned wit respect to each other that, when the armature 222 of the relay 201 is in its retracted osition, the armatures 220 and 221 of the re ay 200 are adapted to be maintained in their operated position. The relay 202 is of the usual type and controls the operation of the relays 200 and 201. Relays 203 to 205, inclusive, and relays 207 to 215, inclusive, Fig. 2, comprise a portion of the control circuit. The relay 206 is a polarized relay that is adapted to operate its armatures 231 and 232 into one position when the current flow through its winding is in a certain direction and to operate the armatures in the opposite direction when the current flow through the winding is in the opposite direction.

In Fig. 3, relays 300 to 309, inclusive, are multi-contract rela s and comprise the first selecting group. elays 310 and 311 are multi-contact switching relays. Relays 312 and 313 control certain switching operations. Relays 314 to 319, inclusive, Fig. 3, and relays 400 to 416, inclusive, Fig. 4, comprise the remainder of the control circuit at the dispatchers ofiice.

Relays 500 to 509, inclusive, Fig. 5, comprise the first group of selecting relays at the substation. The relays 518 and 519 are multi-contact switching relays. Relays 510' to 517, inclusive, comprise a portion of the control circuit. Of the selecting relays 500 to 509, inclusive, the even-numbered relays connect the signal-controlling relays to the transmission circuit between the dispatchers oflice and the controlled station, While the odd-numbered relays of this group connect the operation controlling rela s to the transmission circuit. In Fig. 6, re ays 600 to 618, inclusi e, comprise another portion of the control circuit.

In Fig. 7, relays 700 to 723, inclusive, constitute the group or chains of counting relays at the substation. The relays 7 24 and 725 control certain releasing operations.

In Fig. 8, relays 800, 809 and 810 to 821, inclusive, comprise the remaining portion of the control circuit at the substation. Relays-802 to 806, inclusive, are rovided for controlling the operation of the circuit breaker C and also the application of the signalling current to the control circuit. The relay 801 is a polarcircuit breaker C. In order to accomplish this result, the dispatcher will operate the key corresponding to this unit inthe roper direction. It will be assumed. that the key K,

which is the one associated with the circuit breaker C, is operated whereby the spring 224 engages its working contact. The dispatcher will now operate the key K1 momentarily.

In the normal condition of the system, there is a holding circuit completed which extends from battery by way of back contact and armature 243, holding relay 212, back contact and armature 247, armature 230 and its back contact, conductor 271, back contact and armature 432, trunk conductor 460, armature 620 and its back contact, conductor 674, arma-- ture 826 and its back contact, armature 844 and its back contact, holding relay 813 and back contact and armature 849 to ground. The holding relay 212 and 813 are energized over this circuit.

The switching relay 310 at the dispatchers ofiice is normally energized over a path which extends from ground by way of armature 351 and its back contact and relay 310 to battery.

The switching relay 519 at the substation is normally energized over a path extending from ground by way of armature 547 and its back contact and relay 519 to battery.

The relay 212, upon being energized, completes a circuit for the relay 208 at armature 246 and at armature 245 opens one pointin the circuit of the relay 213. The relay 208 operates to open one point in the locking circuit of the relay 207.

At the substation, the relay 813, upon being operated, opens the circuit of the relay 810 at armature 846, completes a circuit for the relay 817 at the front contact of this armature, opens the circuit 1 of the relay 811 at armature 847, and at the front contact of this armature completes a circuit for the relay 818. The relay 810 is deenergized to prepare one point in the starting circuit at armature 842. The relay 811 prepares a point in the circuit of relay 813. The relay 817 operates to open one point in the locking circuit of the relay 81 6;at armature 856. I When the key K-1 is operated, a circuit i completed which extends from ground by way of the springs of said key, back contact and armature 244, armature 242 and its back contact and relay 209 to battery. The relay 209 is energized to complete a circuit which extends from ground by way of back contact and armature 238, armature 240 and its front contact, relay 210 and relay 209 tobattery, and to complete a circuit for the relay 211 at armature 241.

The relay 211 energized to remove the short-circuit from the winding of the relay 210 and this relay is operated to open the circuit of the holding relays 212 and 813 at armature 243. The relay 212, upon being deenergized, completes a circuit for the relay 213 at armature 245 and opens the circuit of the relay 208 at armature ,246. The relay 213,jupon being energized, prepares a point in the circuit of the line relay 410 at a'rmature 247.

At the substation, the relay 813, upon being deenergized, opens the circuit of the relay 817 at armature 846, completes a circuit for the relay 810 at the back contact of this armature, opens a circuit for the rela 818, at armature 847 and completes a circuit for the relay 811 at the back contact of this armature. The relay 817, upon being deener "zed, pre- ,1, pares a locking circuit for the re ay 816 at armature 856. The relay 818 is deenergized 7 to open one point in the starting circuit at armature 857 and to open another point in the circuit of the relay 821 at armature 858. The relay 810 is energized to prepare another starting circuit at armature 842 and to'open another point in the circuit of the relay 821 at armature 843.

The relay 811 is energized to complete a selection control circuit at armature 844. This circuit extends from battery by way of armature 437 and itsback contact, line relay 410, back contact and armature 448, conductor 277, front contact and armature 247, armature 230 and its back contact, conductor 271, back contact and armature 432, trunk conductor 460, armature 620 and its back contact, conductor 674, armature 826 and its back contact, armature 844 and its front contact, conductor 675, armature 647 and its back I contact, line relay 612, and backcontact and armature 641 to ground. The line relays 410 and 612 are energized over the above circuit.

The line relay 410, upon operating, completes a circuit for the relay 408 at armature 439 and at armature 440 completes a circuit for the relay 416. The relay 408. operates to open one point in the circuits of the relays 411 and 412 at armature 436, and at armature 435 completes a circuit which extends from ground by way of armature159 and its back contact, conductor 163, backcontact" and armature 441, armature 435 and its front contact, relay 409 and relay 408 to battery. The above circuit is notefiective until the original energizing circuit of the relay 408 is opened, b reason of the fact that the relay 409 is s ort-circuited.

The relay 416, upon being operated, opens- 416 is that a circuit is completed which extends from ground by way of armature 438 and its back contact, armature 456 and its front contact, conductor 164, armature 138 and its back contact, counting relay 111, back contact and armature 141 and back contact and armature 160 to battery.

The relay 111 is energized over the above circuit and operates to complete a circuit,

at armature 140, which extends from ground by way of back contact and armature 158, armature 140 and its front contact, relay 110, relay 111, back contact and armature 141 and back contact and armature 160 to battery. The above circuit is not effective-until the original energizing circuit for the relay 111 is o ned.

e relay 404 operates to complete a circuit for the relay 406 over a path which extends from battery b way of armature 430 and its front contact, ack contact and armature 431, relay 406 and back contact and armature 434 to ground. The relay 406 operates to open the circuit of the line rela 410 at armature 432 and to connect the trun conductor 460 to the conductor 276 at the front contact of this armature. Another result of the operation of the relay 406 is that a circuit is preparedfor the relay 407 at armature 433.

When the circuit of the line relay 410 is opened, this relay is deenergized to remove the short-circuit from the winding of the relay 409. The relay 409 operates to open another point in the circuit of therelay 410 at armature 437, and at armature 438 removes the short-circuit from the counting relay 110. The counting relay 110 operates to prepare a circuit for the relay 123 at armature 137, to open another point in the original energizing circuit of the relay 111 at armature 138, and at armature 139 to complete a circuit which extends from ground by way of back contact and armature 158, armature 157 and its back contact, armature 139 and its front contact, conductor 181, spring 340 and its working contact and selecting relay 309 to battery.

The selecting relay 309 is energized to apply ground to the conductors 168 and 371 at springs 320 and 321 and to pre are a signalling circuit at spring 322. The grounding of conductor 371 merely prepares a locking circuit for the relay 400. The ground potential upon the conductor 168 brings about the energization of the relay 215. The larized relay 206 is now connected to the slgnalling circuit.

At the substation, the line relay 612, upon being energized, completes a circuit for the relay 611 at armature 646 and at armature 645 completes a circuit for the relay 618. The relay 611, upon being energized, opens one point in the circuits of the relays 615 and 616 at armature 644 and at armature 643 completes a circuit which extends from ground by way of armature 757 and its back contact, conductor 770, back contact and armature 654, armature 643 and its front contact, relay 610 and relay 611 to battery. The relay 610 is short-circuited as long as the original energizing circuit for the relay 611 is maintained.

The relay 618, upon operating, opens one' extends from point in the locking circuit of the relay 617 at armature 660, establishes a locln'ng circuit for itself at armature 661 and completesa circuit for the relay 609 at armature 659. The relay 609 is operated to complete a circuit which extends from battery by way of armature 639 and its front contact, armature 638 and its back contact, relay 600 and back contact and armature 622 to ground.

, Another result of the operation of the relay 618 is that a circuit is completed extendin from ground by way of armature 642 an its back contact, armature 662 and its front contact, conductor 588, armature 728 and its back contact, counting relay 700, back contact and armature 7 51 and back contact and armature 754 to battery.

The counting relay 700 is energized over the above circuit and operates to complete the circuit of the relay 701 over a path which ground by way of back contact and armature 56, armature 726 and its front contact, relay 701, relay 700, back contact.

and armature 751 and back contact and armature 754 to battery. The relay 701 is shortcircuited as long as the original energizing circuit of the relay 700 is maintained.

The relay 600 is energized over a previously traced circuit and operates to open the circuit of the line relay 612 at armature 620, 9

and to prepare a signalling circuit at the front contact of this armature. Another result of the operation of the relay 600 is that a circuit is prepared for the relay 601 at armature 621.

The relay 612, upon being deenergized, removes the short-circuit from the relay 610 and this relay is permitted to operate. As a result of the operation of the relay 610, the short-circuit is removed from the counting relay 700 and this relay is permitted to operate. The rela 7 01, upon operating, prepares a circuit for the counting relay 712 at armature 727, opens another point in the original energizing circuit of the relay 7 00- at armature 728, and at armature 729. completes a circuit extending from ground by way of back contact and armature 756, armature 739 and its back contact, armature 729 and its front contact, conductor 586, spring 553 and its working contact and selecting relay 500 to battery.

-The selecting relay 500, upon being open ated, places ground upon conductor 590 at spring 520 and at spring 521 prepares a signalling circuit. The ground potential upon the conductor 590 merely causes theenergization of the relay 604. The relay 604 operates to complete a supervisory signalling circult.

This signalling circuit now extends from the negative pole of the battery B at the substation, back contact and armature 838, conductor 589, sprin 521 and its working conconductor 673, front contact and armature rontact, conductor 276, armature 250 and its front contact and polarized relay 206 to ground.

The polarized relay 206 now operates its armatures 231 and 232 so that the armature 231 is forced into engagement with the springs 233 and 235, whereby ground potential is placed upon the conductor 166 and upon. the conductor 273. The conductor 166 extends by way of the working contact of spring 322 of the selecting relay 309 and said spring, conductor 270, armature 225 and its back contact and relay 201 to ground. The relay 201 is not energized at this time by reason of the fact that the signalling device 217 is operated to indicate that the circuit breaker C is in an open position, the circuits obviously being arranged to energize relay 201 upon closing of the circuit breaker. The circuit to relay 201 with the circuit breaker closed is from ground at armature 231 to ground at relay 201 with no battery.

The connection of round to conductor 273 completes a circuit or the relay 400. The relay 400 operates to establish a locking circuit for itself at armature 418 'from ground through battery, winding of relay 400, front contact and armature 418, conductor 371, and contact 320 to ground, to complete a circuit for the relay 402 at armature 417 and to complete a circuit for the relay 407 at armatures 419 and 420. The relay 407 is energized over a path which extends from ground by way of armature 433 and its front contact, arm'ature 422 and its back contact, front contact and armature 419, relay 407, armature 423 and itsback contact and 'front contact and armature 420 to battery.

The relay 402 operates to establish a looking circuit for itself at armature 426 to ground upon the conductor 163, to open one point in the locking circuit of the relay 403 at armature 425 and to complete a circuit for v the relay 414 at armature 427. The relay 414 operates to prepare a circuit for the line relay 413 at armature 448. The relay 407 is energized to open the circuit of the relay 406'at armature 434 and to establish a locking circuit for itself at the front contact of this armature. The relay 406 is deenergized to open one point in the original energizing circuit of the relay 407 at armature 433 and to reestablish one point in the control circuit. By the deenergization of the relay 406, the previously traced signalling circuit is opened and, consequently, the polarized relay 206 is deenergized and the circuit of the slow-acting relay 800 is opened.

At the substation, the relay 800 is enerized in series with the polarized relay 206.

he relay 800 operates to open one point in the trunk or'controlcircuit at armature 826 and to complete a circuit, at armature 825, which extends from ground by way of said armature and its front contact, conductor 671 and rela 603 to battery. The relay 603 is ener ize to establish a locking circuit for itsel at armature 628 from ground through battery, winding of relay 603, front contact and armature 628, conductor 590, contact 521 and ground, to complete a circuit for the relay 606 at armature 627 and to complete a circuit for the relay 601 at armatures 629 and 630. The circuit over which the relay 601 is energized extends from ground by way of armature 621 and its front contact, armature 630 and its front contact, back contact and armature 626, relay 601, armature 624 and its back contact, and front contact and armature 629 to battery.

The relay 606, upon being energized, opens one point in the locking circuit of the relay 607 at armature 635, establishes a locking circuit for itself at armature 634 to ground upon the grounded conductor 770 and completes a circuit for the relay 613 at armature 636. The relay 613 is energized to prepare one point in the circuit of the line relay 614. The relay 601 is energized to open the circuit of the relay 600 at armature 622 and to establish a locking circuit for itself at the front contact of this armature. The relay 600, upon being deenergized, opens one oint in the original energizing circuit of t e relay 601 at armature 621, at armature 620 opens another point in the signalling circuit and at the back contact of this armature reestablishes one point in the trunk circuit.

' Uponthe deenergization of the slow-acting relay 800, which occurs a short interval of time after the signalling circuit has been opened, as before described, the selection control circuit is completed. This circuit extends from ground by way of armature 444 and its back contact, line relay 413, front contact and armature 448, conductor 277, front contact and armature 247, armature 230 and its back contact, conductor 271, back contact and armature 432, trunk conductor 460, armature 620 and its back contact, conductor 674, armature 826 and its back contact, armature'844 and its front contact, conductor 675, armature 647 and its front contact, line relay- 614 and back contact and armature 652 to battery. The line relays 413 and 614 are now energized in series.

- The relay 413, upon being energized, establishes a circuit for the relay 411 at armature 446 and at armature 447 completes a circuit for the relay 415. The relay 411 operates to open the circuit of the relays 408 and 409 at armature 441, and to prepare a circuit for the relay 412 at armature 442. The relay 408, upon being deenergized, opens one point in the circuit of the relay 409 at armature 435, and at armature 436 completes a circuit which extends from the grounded conductor circuit of the line relay 410.

The relay 415, upon operating, completes I a circuit for the relay 405 at armature 449,

opens the locking circuit of the relay 416 at armature 450 and completes a locking circuit for itself at armature 451. The relay 416 is deenergized to open the circuit of the relay 404 at armature 453 and to establish a locking circuit for the relay 415 at armature 453. The relay 404 is deenergized to prepare one point in the circuit of the relay 406. The relay 405 is energized to prepare a circuit for the relay 406.

Another result of the operation of the relay 415 is that a circuit is completed extending from ground at armature 445 and its back contact, armature 452 and its front contact, conductor 165, front contact and armature 137, armature 155 and its back contact, counting rela 123, back contact and armature 141 and back contact and armature 160 to battery. The counting relay 123 is energized over the above circuit and operates to open the circuit of the selecting relay 109 at armature 157 and to complete a circuit for the counting relay 122 at the front contact of this armature. The relay 122 is not energized so long as the original, energizing circuit of the relay. 123 is maintained.

The selecting relay 309, upon being deenergized, opens one point in t e signalling circuit at spring 322, and at springs 320 and 321 removes ground from conductors 371 and 168, respectively. By the removal of ground from conductor 168, the circuit of the relay 215 is opened and this relay is deenergized to open another point in the signalling circuit. By the removal of ground from conductor 371, the locking circuit of the relay 400 is opened and this relay is deenergized to open the locking circuit of the relay 407. The rela 407 is deenergized to complete a circuit WhlCll extends from ground by way of back contact and armature 434, relay 406, armature 431 and its front contact and back contapt and armature 430 to battery. The relay 406 operates to prepare one point in the circuit of the relay 407 at armature 433, at armature 432 opens the circuit of the line relay 413 and at the front contact of this armature prepares a signalling circuit..

When the circuit of the line relay 413 is opened, this relay is deenergized to permit the energization of the relay 412. The relay 412 operates to open another point in the circuit of the relay 413 at armature 444, to open another point in the original energizing circuit of t e relay 411 at armature 443 and to open the original energizing circuit of the counti-ifg relay 123 at armature 445. As the short-circuit is removed from the relay 122 h this operation, the relay 122 is energize The relay 122 operates to prepare a circuit- I for the counting relay 109 at armature 154, to open another point in the original energizing circuit of the relay 123 at armature 155 and to complete a circuit which extends from ground by Way of back contact and armature 158, armature 136 and its back contact, armature 156 and its front contact, conductor 180, spring 340 and its working contact, and second selecting relay 308 to. battery.

The second selecting relay 308 is energized to prepare a signalling circuit at spring 324 and to place ground upon the conductors 167 and 370 at springs 326 and 325, respectively. The groundin of conductor 370 prepares a lockin circuit for the relay 401. The groun ing of conductor 167 brings about the energization of the relay 214. The relay 214 is energized to prepare a signaling circuit at armature 249 and to open the circuit of the slow-acting relay 204 at armature 248.

At the substation, the line relay 614 operates to complete a circuit for the relay 617 at armature 648 and to complete a circuit for the relay 616 at armature 649. The relay 616 is energized to open the circuit of the relays 610 and 611 at armature 654 and to prepare a circuit at armature 653 for the rela 615. The relay 610, upon being deenergize prepares a circuit for the relay 611 at armature 640 and prepares a circuit for the relay 612 at armature 641. The rela gized to open one point in t e circuitof the relay 610 at armature 643 and to establish a 611 is deenercircuit which extends from the grounded conductor 770 by way of armature 644 armature 653 and its front contact, relay 615 and relay 616 to battery. This circuit is not efi'ective so long as the original energizing circuit for the relay 616 is maintained.

The relay 617, upon operating, completes a circuit for the relay 608 at armature 656, prepares a locking circuit for itself at armature 657, and at armature 658 opens the locking circuit for the relay 618. The relay 618 is (laenergized to open the circuit of the relay 609 at armature 659 and to establish a locking circuit for the relay 617 at armature 660. The relay 609 is deenergized to prepare one point in the circuit of the relay 600. The relay 608 is energized for the same purpose.

Another resultof the operation of the relay 617 is that a circuit is completed whichextends from ground by way of armature 650 and its back contact, armature 655 and its front contact, conductor 587, front contact and armature 727, armature 741 and its back contact, relay 712, back contact and armature 751 and back contact and armature 754 to battery. The countingrelay 712 is energized over the above circuit and operates to open the circuit of the selecting relay 500 at armature 739and to establish a circuit for the rela 713; The circuit of therelay 713 is not e ective so long as the original energizing circuit for the relay 712 is maintained.

' The selecting relay 500 is deenergized to open'another point in the signallin circuit at armature 521 and to remove 'groun from theconductor 590 at spring 520. -"The removal of ground from conductor590 effects the deenergization of the relays 603 and 604. The

relay 604 is deenergized to open another v circuit extending from round by we. of ararmature 638 and itsfront contact an to prepare a signallmg circuit at the front move the short-circuit from the relay he relay 601 is deenergized to complete a contact, re

back

mature 622 and its bac contact and armature 639 to battery.-

The relay 600 is energized to open the circuit of the line rela 614 at armature 620,

contact of this armature and to prepare a circuit for the relay 601 at armature 621. The openin of the circuitof the line relay 614 causes t is relay to be deenergized m The relay 615 operates to open another point in the circuit of the line relay 614 at armature 652, toopen another point in the originalenergizing circuit of the relay 616 at armature 651, and to open the ori 'nal energizing circuit for the counting re ay 713 at armature 650. a

The relay 713 is energized'to prepare acir cuit for the counting relay 702 at armature 740, to open another point in the original en ergizing' circuit of the relay. 712 at armature 741, and to complete a circuit extending from ground by way of back contact and armature 756, armature 730 and its back contact, armature 742 and its front contact, conductor 585, s ring 554 and its working contact'and mature 633. The'removal of ground fromv secon selecting relay 501 to battery.

The selecting relay 501 is energized to prepare certain signalling circuits at springs 523 and 524 and to place ground upon the conductor 592 at spring 522. The ounding of conductor 592 completes a circult for the re- 'lay 605. The relay 605 is energized to prepare a signalling circuit at armature 632 and to remove ground from conductor 676 at arconductor 676 opens the circuit of the slowacting relay 802.

A control signalling circuit is now completed, inasmuch as the key K has been operated. This signalling circuit extends from the negative pole of the battery-B'1 atthe dispatchers office by way of spring 224and its Working contact, conductor 274, spring 324 and its working contact, conductor 169, slow-acting relay 205, front contact and armature 249, conductor 276, front'contact and armature 432, trunk conductor 460, armature A 620 and its front contact, armature 632 and its front contact, conductor 670 and;polarized relay 801 to ground.

The polarized relay 801 is energized so as i to cause the armature 827 to engage contacts 829 and 830 and to cause the armature 890 to engage the contact 891. As a result of these operations, a circuit is closed forthc-- of said conductor, working contact of spring 523 and said spring, conductor 573 and relay 805 to battery.

The relay 805 is energized to complete a circuit for the closingcoil 807 of the. circuit breaker O at armature 836, and to establish a locking circuit for itself at armature 892.; The circuit breaker C operates in the usual manner to perform any one of a number of desired operations. As a result of the operation of the'circuit breaker C, the relay 806 is energized to open the locking circuit of the rela; 805. The circuit of the closing coil 807 1s, of course, opened at the pallet switch 840 upon the closing of the circuit breaker C. The common low-resistance relay 809 is .energized in series withthe closing coil 807. Effects of the operation of this relay will be considered hereinafter.

When ground is placed upon the conductor 67 2, as revious y described, a circuit is completed or the relay 602. The relay 602 operates to establish a locking circuit for itself at armature 623, to complete a circuit for the relay 607 at armature 625 and to complete a circuit, at armatures 624 and 626, which extends from ground by way of armature 621 and its front contact, armature 630 and its back contact, front contact and armature circuit of the relay 606. The deenergi'zation of the relay 606 establishes a locking circuit for the relay 607 and opens the circuit of'the relay 613. The relay 613 is deenergized to prepare one point in the circuit of the relay 612. By the opening of the signalling circuit, the polarized line relay lis deenergized to open the circuit of the slow-acting relay 802 and also to open the circuit of ,therelay 805.

1 l The relay 805 is deenergized to open another point in the circuit of the closing coil 807 The slow-acting rela 205, at the dispatchers oflice, is energized over the signalling circuit. This relay operates to complete a circuit for the slow-acting relay 204 at armature 228, to open one point in the control circuit at armature 230 and to complete a circuit at armature 229 which extends from ground by way of said armature and its front contact, conductor 272, and relay 401 to battery. The relay 401 is energized to establish a locking circuit for itself at armature 421, to complete a .circuit for the relay 403 at armature 424 and to complete a circuit, at armatures 422 and 423, for the relay 407 over a path which extends from ground by way of armature 433 and its front contact, armature 422 and its front contact, back contact and armature 419, relay 407, armature 423 and its front contact, and back contact and armature 420 to battery. The relay 407 operates to open the circuit of the relay 406 and to establish a locking circuit for itself at armature 434. The relay 406 is deenergized to open another point in the signalling circuit, to reestablish one point in the control circuit at armature 432, and to open one point in the original energizing circuit of the relay 407 at armature 433. The relay 403 operates to open the locking circuit of the relay 402 at armature 428 and to close one point in its locking circuit at armature 429. The relay 402 is deenergized to establish a locking circuit for the rela 403 at armature 425 and to open the circuit of the relay 414 at armature 427. The relay 414 is deenergized to prepare one point in the circuit of the line relay 410 at armature 448.

Upon the deenergization of the slow-act ing relay 205, the circuit of the slow-acting re ay 204 is opened and a control circuit is established over a path which extends from battery by way of armature 437 and its back contact,.line relay 410, back contact and armature 448, conductor 277, front contact and armature 247, armature 230 and its back contact, conductor 271, back contact and armature 432, trunk conductor 460, armature 620 and its back contact, conductor 674, armature 826 and its back contact, armature 844 and its front contact, conductor 675, armature 647 and its back contact, line relay 612 and back contact and armature 641 to ground. The

line relays 410 and 612 are now energized in V series.

circuits to normal and to complete a circuit for the relay 409, which is effective when the original energizing circuit for the relay 408 is opened.

The relay 416 is energized to open the locking circuit of the relay 415, to establish a lockin" circuit for itself and to complete a cir cuit for the relay 404. The relay 415 is deenergized to establish a locking circuit for the relay 416 and to open the circuit of the relay 405. The relay 405 is deener 'zed to prepare one point in the circuit of t e relay 406 and the relay 404 is deenergized for the same purpose.

The operation of the relay 416 also completes a circuit for the counting relay 103.

The counting relay 103 operates to open the circuit of the selecting relay 308 and to prepare a circuit for the counting relay 102. The selecting relay 308 is deenergized'to open the locking circuit of the relay 401, to open the circuit of the relay 214 and to open the signalling circuit. The relay 214 is deenergized to open another point in the signalling circuit and to complete another circuit for the slow-acting relay 204.

The relay 401 is deenergized to open the locking circuit of the relay 407. The relay 407 is deenergized to complete a circuit for the relay 406. The relay 406 operates to open the circuit of the line rela 410 and to prepare a signalling circuit. The line relay 410' is deenergized to ermit the operation of the relay'409. The re ay 409 operates to open the original ener izing circuit of the counting relay 103, w ereby the counting relay 102 is operated. The counting relay 102 operates to establish a circuit for the selecting relay 307. The selecting relay 307 is energized to place ground upon conductors 168 and 371, and to prepare a signalling circuit.

The grounding of conductor 168 brings about.

the energization of the relay 215. The relay 215 operates to prepare a signalling circuit. The grounding of conductor 371 prepares a locking circuit for the relay 400.

At the substation, the line relay 612 operates to complete a circuit for the relay 611 and for the relay 618. The relay 611 opens the locking circuits of the relays 615 and 616 and prepares a circuit for the relay 610. 'By the deenergization of the relays 615 and 616, certain circuits are restored to normal and a circuit is completed for the relay 610, which is effective u n the opening of the original energizing circuit for the relay 611. The relay 618 operates to complete a circuit for the relay 609, to open 'thelocking circuit of the relay 617 and to prepare a cking circuit for itself. The rela 617 is deenergized to establish a locking clrcuit for the relay 618 and to open the circuitof the relay 608. The relay 608 is deenergized and the relay 609 is energized to prepare one point in the circuit of the relay600.

The operation of the relay 618 also'completes a circuit for the counting relay 702.

The counting relay 702 operates to open the circuit of the second selecting relay 501 and to complete a circuit for the relay 703. This latter circuit is ineffective so long as the circuit for the relay 602 is maintained.

The selecting relay 501 is deenergized to open certain signalling circuits and to remove ground from conductor 592, thereby opening the locking circuit of the relay 602 and the circuit of the relay 605. The relay 605 is deenergized to open one point in the signalling circuit. The relay 602 is deenergized to open the circuit of the relay 601. The relay 601 retracts its armature to complete a cir cuit for the relay 600. The relay 600 operates to open the circuit of the line relay 612 and to prepare a signalling circuit. The relay 612 is deenergized to permit the operation of the relay 610. The relay 610 operates to open the original energizing circuit of the counting relay 702.

The counting relay 703 is now energized to complete a circuit for the selectingv relay 502. The selecting relay 502 operates to prepare a signalling circuit and to place ground upon the conductor 590, thus causing the energization of the relay 604. The relay 604 is operated to complete the signalling circuit. By the operation of the signalling circuit, the indication of the supervisory signalling devices at the dispatchers oflice (which are lamps similar to 216 and 217) is checked and, upon the operation of the signalling circuit, the control circuit is completed and the line relays 413 and 614 are energized in series.

In the previous case, it will be recalled that the signalling circuit was completed by reason of the fact that the key K was operated, signifying that the dispatcher desired the closure of the circuit breaker C correspondin to this key. It is understood, of course, t at the lamps 216 and 217 are supervisory lamps for indicating the actual position of the apparatus unit. In the event that the key K had not been operated, no signalling circuit would have been completed and, consequently, the slow-acting relay 204 at the ,dispatchers oflice and the relay 802 at the substation would have been permitted to deenergize.

The deenergization of the relay 204 at the dispatchers office opens the circuit of the relay 203. After a short interval of tlme, the relay 203 is deenergized to place ground upon the conductor 272. The grounding of conductor 272 brings about the same results as if the relay 205, in series with the signalling circuit, had been energized, and thus the control circuit is prepared at the dispatchers office.

The deenergization of the relay 802, at the substation, opens the circuit of the relay 803. A short interval of time after, the relay 803 is deenergized to place ground upon the conductor 672, whereby the relay 602 is enerdispatcher does not desire an operation to take place at the substation. Thus, these slow-acting relays are effective to cause the completion of the control circuit at this time. Returning now to thenormal operation of the system, the line relays 410 and 413 are now alternately operated over the control circuitin a manner described. By these operations, the counting relays 115, 114, 105, 104, 117, 116, 107, 106, 119, 118, 109, 108, 121, 120, 111 and 110 are energized in the sequence mentioned. I

The selecting relays 306, 305, 304, 303. 302, 301 and 300 are also energized in the sequence mentionedby the operation of the counting relays. Of course, it will be understood that the trunk circuit is alternately switched be tween the line relays and the signalling circuits, as before described.

At the substation, the line relays 612 and 614 are alternately operated by the control circuit in the same manner as before. The counting relays 714, 715, 704, 705, 716, 717, 706, 707, 718, 719, 708 709, 720, 721, 710 and 711 are energized by the operation of the control circuit in the sequence mentioned.

The selecting relays 503 to 509, inclusive,

are energized by the operation of the counting relays. The trunk circuit at the substation is also switched between the control circuit and the signalling circuit. By this means, the control and signalling operations, as Well as the selective operations, are performed over a single pair of wires.

At the dispatchers oflice, the line relay 410 and the relay 416 are energized to bring about the operation of the counting relay 101. The counting relay 101 operates to open the circuit of the selecting relay 300 and completes a circuit for the relay 100. The relay 300 is deenergized to remove ground from the conductor 370 and also from the conductor 167, in addition to opening certain signalling circuits.

The removal of round from conductor 167 brings about the eenergization of the relay 214. The relay 214 retracts its armature to complete a circuit for the slow-acting relay 204 and to open another point in the signalling circuit. The removal of ground from conductor 37 0 opens the lockin circuit of the relay 401 and this relay is eenergized to open the circuit of the relay 407. The relay 407 is deenergized to open the circuit of the line relay 410. .The line relay 410 is deenergized to permit the operation of the relay 409. The relay 409 is energized to bring about the operation of the relay 100. p

The relay 100 operates to complete a circuit extending from ground by way of back contact and armature 158, armature 149 and its back contact, armature 128 and its front contact, conductor 171, and relay 313 to battery. The relay 313 is operated to place ground upon the conductor 374, thereby completing a circuit for the relay 400. The relay 400 operates to complete a circuit for the relay 407 and also for the relay 402. The relay 402 operates to complete a circuit for the relay 414 and to open the locking circuit of the relay 403. The relay 403 is deenergized to establish a locking circuit for the relay 402. The relay 414 is operated to prepare a circuit for the line relay 413. The relay 407 is energized to open the locking circuit of the relay 406. The relay 406 is deenergized to prepare one point in the control circuit.

Another result of the operation of the relay 313 is that a circuit is completed, at armat'ure 346, which extends from ground by way of front contact and said armature, armature 352 and its back contact, relay 31,5, armature 358 and its back contact and armature 349 to battery. The relay 315 is energized over this circuit and operates to open the circuit of the switching relay 310 at armature 351, to prepare one point in the circuit of the switching relay 311 at the front contact of this armature, and to complete a circuit extending from ground by way of back contact and armature 359, armature 350 and its front contact, relay 316, relay 315, armature 358 and its back contact and back contact and armature 349 to battery. This circuit is not effective so long as the original energizing circuit for the relay 315 is maintained.

At the substation, the line relay 612 and the relay 618 are energized to bring about i the operation" of the counting relay 710.

The counting relay 710 is operated to open the circuit of the selecting relay 509 and to prepare a circuit for the relay 711. The selecting relay 509 is deenergized to remove ground from conductor 592, thereby openv ing the circuit of the relay 605, and also the locking circuit of the relay 602. The relay 605 is deenergized to open one point in the signalling circuitand to reestablish the circuit of the slow-acting relay 802.

The relay 602 is deenergized to open the locking circuit of the relay 601. The relay 601 retracts its armature to complete a circuit for the relay 600. The relay 600 operates to open the circuit of the line relay 612.

The relay 612 is deenergized to permit the energization of the relay 610. The relay 610 operates to open the original energizing circuit of the counting relay 710, thus permitting the energization of the relay 711. The counting relay 711 is energized to'complete a circuit extending from ground by way of back contact and armature 756, armature 750 and its back contact, armature 738 and its front contact, conductor 576 and relay 516 to battery.

The relay 516 is energized to place ground upon the conductor 591, thereby completing the circuit for the relay 603. The relay 603 is operated to complete a circuit for the relay 606 at armature 627 and to complete a circuit for the relay 601. The relay 606 is energized to open the locking circuit of the relay 607 and to complete a circuit for the relay 613. The relay 613 is energized to prepare a circuit for the line relay 614. The relay 601 is energized to open the circuit of the relay 600. The relay 600 is deenergized to reestablish the trunk circuit, whereby the line relays 413 and 614 are energized in series.

Another result of the operation of the relay 516 is that a circuit is completed extending from ground by way of front contact and armature 550, armature 524 and its back contact, relay 514, back contact and armature 542 and back contact and armature 549 to battery. The relay 514 is energized over the above circuit and operates to open the circuit of the switching relay 519 at armature 547, to prepare a circuit for the switching relay 516 at the front contact of this armature, and to complete a circuit which extends from ground by way of armature 540 and its back contact, armature 546 and its front contact, relay 513, relay 514, back contact and armature 542 and back contact and armature 549 to battery. The relay 513 is not energized so long as the original energizing circuit of the relay 514 is maintained.

At the dispatchers station, the line relay 413 operates to complete the circuits of the relays 411 and 415. The relay 411 opens the circuits of the relays 408 and 409 and prepares a circuit for the relay 412. The relay 415 opens the locking circuit of the relay 416 and completes a circuit for the relay 405. The relay 416 is deenergized to establish the locking circuit of the relay 415 and to open the circuit of the relay 404. The relay 404 is deenergized and the relay 405 is energized to prepare a circuit for the relay 406.

Another result of the operation of the relay 415 is that a circuit is closed for the counting relay 113. The counting relay 113 is energized to open the circuit of the relay 313 and to prepare a circuit for the relay 112. The relay 313 is deenergized to remove the short-circuit from the winding of the relay 316 at armature 346 and to remove ground from conductor 374 at armature 347. The relay 316 operates to prepare a circuit for the relay 317 at armature 352 and to complete a circuit, at armature 353, which extends from ground by way of armature 351 and its front contact, armature 353 and its front contact and switching relay 311 to battery. The switching relay 311 is energized to associate the second groupof selecting relays (not shown) with the relays in the counting chain.

By the operation of the relay 316, ground is also placed upon the conductor 275. The

grounding of conductor 275 is without particular function at the present time. The re moval of ground from conductor 374 opens the circuit of the relay 400 and this relay is deenergized to open the locking circuit of the relay 407. The relay 407 retracts its armature to complete a circuit for the relay 406. The relay 406 operates to open the circuit of the line rela 413 and to prepare a point in the circuit 0 the relay 407.

The relay 413 is deenergized to permit the operation of the relay 412. The relay 412 opens the original energizing circuit of the counting relay 113, thereby permitting the relay 112 to operate. The relay 112 operates to remove the short-circuit rom the relay 125, thus permitting this relay to energize in series with all the counting relays, and at armature 143, completes a circuit extending from ground by way of said armature and its front contact, conductor 170 and relay 312 to battery.

The relay 312 operates to place ground upon conductor 373, thereby completing the circuit of the relay 401. The relay 401 operates to complete a circuit for the relay 403 and to complete a circuit for the relay 407. The relay 403 operates to open the locking circuit of the relay 402. The relay 402 is deenergized to open the circuit of the relay 414 and to establish a locking circuit for the relay 403. The relay 414 is deenergized to prepare one point in the circuit of the line relay 410.

By the operation of the relay 125, a circuit is completed at armature 161 for the slowacting relay 124. The slow-acting relay 124 operates to open the circuits of all the counting relays 100 to 123, inclusive, at armature 158, and at armature 159 removes ground from conductor 163 and connects ground to conductor 162. The removal of ground from conductor 163 brings about the deenergization of relays 411, 412, 403 and 415. The deenergization of the relay 415 opens the circuit of the relay 405. All these relays retract their armatures to restore certain circuits to normal.

The connection ofground to conductor 162 causes the energization of the relay 207 which operates to establish a locking circuit for itself at armature 237, to open the circuits of the relays 209 and 210 at armature 238, and to open the circuit of the relay 213 at armature 236. The relay 213 is deenergized to prepare one point in the circuit of the holding relay 212. The relay 209 is deenergized to open the circuit of the relay 211. The relay 210 is deenergized to prepare a circuit for the relay 209 and to complete a holding circuit.

At the substation, the line relay 614 is operated to complete a circuit for the relay 617 and for the relay 616. The relay 616 operates to prepare a circuit for the relay 615.

The relay 617 completes a circuit for the relay 608 and opens the locking circuit of the relay 618. The relay 618 is deenergized to open the circuit of ,the relay 609 and to establish a locking circuit for the relay617. The relay 609 is'deencrgized and the relay 608 is energized to prepare a point in the circuit of the relay 600.

Another result of the operation of the re lay 617 is that a circuit is completed for the counting relay 722. The counting relay 722 operates to open the circuit of the relay 516. and to prepare a circuit for the counting relay 7 23. The relay 516 is deenergized to open the original energizing circuit of the'relay 514 at armature 550 and to remove ground from conductor 591 at-armature 551. The opening of the circuit of relay 514 removes the short-circuit from the relay 513 and this relay is operated to prepare a circuit for the relay 512 at armature 544 and to complete a circuit extending from ground by way of armature 547 and its front contact, armature 545 and its front contact and switching relay 518 to battery. The relay 518 is energized to connect the second group of selecting relays (not shown) under the control of the counting relays. 1

The removal of ground of conductor 591 brings about the deenergization of the relay 603. The relay 603 is deenergized to open the locking circuit'of the relay 601. The relay 601 retracts its armature to complete a circuit for the relay 600. The relay 600 is operated to open the circuit of the line relay 614. The relay 614 is deenergized to open the circuit of the relay 616. The relay 615 is thus energized to open the original energizing circuit of the counting relay 7 22. The counting relay 723 is thus permitted to operate.

Upon operating, the relay 7 23 removes the short-circuit from the relay 724 at armature 751, thus permitting this relay to energize in series with all the counting relays, and at armature 753 completes a circuit extending from ground by way of said armature and its front contact, conductor 575 and relay 517 to battery.

The relay 517 is operated to complete a circuit which extends irom ground by wa of armature 542 and its front contact, con uctor 593, and relay 602 to battery. The relay 602 is operated to coin lete a circuit for the relay 607 and to comp etc a circuit for the relay 601. The relay 607 is energized to deenergize relay 606 and thereby to open the circuit of the relay 613. The relay 613 is deenergized to prepare one point in the circuit of the line relay 612. The relay 601 is energized to open the circuit of the relay 600. The relay 600 is deenergized to reestablish one point in the holding-circuit.

The relay 724, upon operating, completes a circuit for the slow-acting relay 725. The

relay 725 operates to open the circuits of all the counting relays 700 to 723, inclusive, also the circuit of the relay 724 at armature 756, and at armature 757 disconnects ground from conductor 77 0 and connects it to conductor 771. The disconnection of ground from conductor 770 opens the locking circuits of the relays 617, 607, 615 and 616. The relay 617v is deenergized to open the circuit of the relay 608 and to restore certain other circuits to normal. The relays 608, 607, 615 and 616 retract their armatures to restore certain circuits to normal.

The grounding of conductor 771 bringsground by Way of armature 849 and its back contact, relay 813, back contact and armature 844, back contact and armature 826, conductor 674, back contact and armature 620, trunk conductor 460, armature 432 and its back contact, conductor 271, back contact and armature 230, armature 247 and its back contact, holding relay 212 and back contact and armature 243 to battery.

The holding relay 212 at the dispatchers oflice, upon operating, completes a circuit for the relay 208 at armature 246. 'The relay 208 is operated to bring about the release of the relay 207. The relay 207 is deenergized to prepare a circuit for the relay 210.

At the substation, the holding relay 813 Operates to prepare a circuit for the relay 818 at armature 847, to open the circuit of the relay 810 at armature 846 and to complete a circuit for the relay 817 at the front contact of armature 846. The relay 810 is deenergized to prepare one point in the circuit of the relay 821 at armature 843, and to prepare one point in the starting circuit at armature 842. The relay 817 is energized to open the locking circuit of the relay 816. The relay 816 is deenergized to prepare a circuit forthe relay 814 at armature 855, and to complete a circuit for the relay 818 at armature 853. The relay 818 is energized to prepare certain points in the starting circuit at armatures 857 and 858.

At-the dispatchers oflice, another result of the energization of the holding relay 212 is that a circuit is completed which extends from-ground by way of armature 356 and its front contact, armature 354 and its front contact, conductor 275, armature 290 and its front contact, back contact and armature 244, armature 242 and its back contact and relay 209 to battery. The relay 209 isenergized to prepare a circuit for the relay 210 and to complete a circuitfor the relay 211. The

relay 211 is energized to open the original energizing circuit for the rela 209. The relay 210 is thereupon energize to open the circuit of the holding relays 212 and 813.

The relay 212 is deenergized to open the circuit of the relay 208 and to complete a circuit for the relay 213. The relay 208 is deenergized to prepare one point in the circuit of the relay 207 The relay 213 is operated to prepare one point in the circuit of the line relay 410.

At the substation, the relay 813 is deenergized to complete a circuit for the relay 810 and to open the circuit of the relay 81 at armature 846 and to complete a circuit for the relay 811 at armature 853. The relay 817 is deenergized to prepare one point in the locking circuit of the relay 816. The relay 810 is energized to open one point in the circuit of the relay 821 at armature 843 and to prepare a circuit for the relay 820 at armature 842. The relay 811 is energized to complete the control circuit.

armature 247, armature 230 and itsback contact, conductor 271, back contact and armature 432, trunk conductor 460, armature 620 and its back contact, conductor 674, armature 826 and its back contact, armature 844 and its front contact, conductor 675, armature 647 and its back contact, line relay 612 and back contact and armature 641 to ground. The line relays 410 and 612 are now energized in series and the control circuit starts to function in the same manner as before.

By the operation of the control circuit, the counting relays and selecting relays are energized in the proper sequence. The signalling operations for controlling the operation of the apparatus units at the substation and the signalling operations for transmitting indications of the operations at the substation to the dispatchers oflice take place as before.

When the counting relay 100, at the dispatchers oflice, is operated by the control circuit-in a manner previously described, a

circuit is completed for the relay 313. The relay 313 is energized to place ground upon conductor 374 at armature 347 and to com plete a circuit which extends from ground

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